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Hydrogenation catalyst and hydrogenation method

a hydrogenation method and catalyst technology, applied in the field of hydrogenation catalysts, can solve the problems of reducing the life of the catalyst, reducing the crush strength of the catalyst, and slurry catalysts, etc., and achieves the effects of high hpa rate, high volume/time yield of pdo from hpa, and high degree of selectivity

Inactive Publication Date: 2008-02-26
SHELL OIL CO
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Suspended or slurry catalysts, such as Raney nickel, however, are susceptible to being discharged into the PDO product stream in the form of soluble compounds, necessitating additional steps to purify the PDO product stream.
Reduction of the particle size, however, reduces the crush strength of the catalyst, which reduces the catalyst life.

Method used

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  • Hydrogenation catalyst and hydrogenation method
  • Hydrogenation catalyst and hydrogenation method
  • Hydrogenation catalyst and hydrogenation method

Examples

Experimental program
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Effect test

example 1

[0076]A catalyst according to the present invention was prepared comprising an α-alumina support, nickel, ruthenium, and rhenium, where the nickel is deposited on the α-alumina support and the ruthenium and rhenium are deposited on the nickel and on the α-alumina support. The catalyst was prepared such that the catalyst contained 2.5 wt. % nickel, 1 wt. % ruthenium, and 1 wt. % rhenium.

[0077]Gamma-alumina tri-lobe pellets were calcined at 1275° C. to prepare the α-alumina support. An aqueous nickel solution was prepared by dissolving 3.5 grams of ammonium carbonate in 15 ml of ammonium hydroxide solution (25%) with moderate heat and stirring, followed by the addition and dissolution of 6.8 grams of nickel carbonate in the ammonium carbonate / ammonium hydroxide solution. The solution volume was brought to 40 ml with additional ammonium hydroxide solution (25%). 100 grams of the α-alumina support was impregnated with the nickel solution, absorbing 100% of the solution volume. The nicke...

example 2

[0080]Hydrogenation of HPA to PDO was effected with a catalyst in accordance with the present invention having nickel deposited on an α-alumina support, and ruthenium and rhenium deposited on the nickel and the support. The catalyst contained 2.5 wt. % nickel, 1 wt. % ruthenium, and 1 wt. % rhenium.

[0081]The catalyst was prepared in accordance with the procedure described in Example 1, where the activated catalyst was maintained under liquid PDO after activation and prior to hydrogenation. A 21 ml volume of the catalyst, with a catalyst density of 0.70 g / cm3 and a void fraction of 0.42, was loaded into a batch hydrogenation wire basket to provide a catalyst charge of 14.7 grams, which was then topped with a ⅛″ layer of inert denstone to prevent the catalyst from moving during the hydrogenation. The basket containing the catalyst was then secured in the cooling coils of a batch hydrogenation reactor. The catalyst was then rinsed three times with deionized nitrogen sparged water.

[0082...

example 3

[0089]Hydrogenation of HPA to PDO was effected with a catalyst of the present invention having nickel deposited on an α-alumina support, and ruthenium and rhenium deposited on the nickel and the support, where the catalyst had been dried and exposed to air under ambient conditions prior to hydrogenation. The catalyst contained 2.5 wt. % nickel, 1 wt. % ruthenium, and 1 wt. % rhenium.

[0090]The catalyst was prepared in the same manner as the catalyst in Example 1, except the activated catalyst was exposed to air at ambient conditions prior to being loaded into a hydrogenator. A 21 ml volume of the activated catalyst with a catalyst density of 0.94 g / cm3 and a void fraction of 0.42 was loaded dry into a batch hydrogenation wire basket to provide a catalyst charge of 19.7 grams, which was then topped with a ⅛″ layer of inert denstone to prevent the catalyst from moving during the hydrogenation. The basket containing the catalyst was then secured in the cooling coils of a batch hydrogena...

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Abstract

The present invention provides a hydrogenation catalyst effective for hydrogenating 3-hydroxypropionaldehyde to 1,3-propanediol. The hydrogenation catalyst comprises an α-alumina support, nickel, ruthenium, and a promoter. The nickel is deposited on the α-alumina support, and the ruthenium and the promoter are deposited on the nickel and the α-alumina support. The α-alumina support comprises at least 92 wt. % of the catalyst, and the nickel comprises from 1 wt. % to 6 wt. % of the catalyst. The present invention also provides a process of hydrogenating 3-hydroxypropionaldehyde to 1,3-propanediol with the catalyst.

Description

CROSS-REFERENCE TO RELATED APPLICATIONS[0001]This application claims priority to U.S. Provisional Application 60 / 673,530 filed on Apr. 21, 2005, herein incorporated by reference in its entirety.FIELD OF THE INVENTION[0002]The present invention relates to a hydrogenation catalyst, a process for preparing the hydrogenation catalyst, and a process for hydrogenating aldehydes using the hydrogenation catalyst. More particularly, the present invention relates to a hydrogenation catalyst, its method of preparation, and its use in hydrogenating aldehydes, where the catalyst comprises an α-alumina support having nickel deposited on the support, and having ruthenium and a promoter deposited on the nickel and the α-alumina support, where the promoter is selected from the group consisting of rhenium, tungsten, molybdenum, chromium, lanthanum, tin, iron, silver, cobalt, copper, or mixtures thereof.BACKGROUND OF THE INVENTION[0003]1,3-propanediol (PDO) is a compound having multiple uses. It is us...

Claims

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Application Information

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Patent Type & Authority Patents(United States)
IPC IPC(8): C07C29/14B01J21/08B01J23/28
CPCB01J23/8933B01J23/8986B01J23/8993C07C29/141C12C11/02C07C31/205B01J23/89C07C31/20B01J21/04
Inventor KOMPLIN, GLENN CHARLESSMEGAL, JOHN ANTHONY
Owner SHELL OIL CO
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